辛时域离散伽略金算法及其在典型微纳结构电磁仿真中的应用

项目名称： 辛时域离散伽略金算法及其在典型微纳结构电磁仿真中的应用

项目编号： No.61471001

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 无线电电子学、电信技术

项目作者： 吴先良

作者单位： 安徽大学

项目金额： 92万元

中文摘要： 目前纳米材料在新型人工电磁超材料、纳米天线及含石墨烯结构的光学器件等中的应用成为热点研究问题，纳米材料的发展也为固体物理、材料科学、光学和应用电磁学等领域取得突破提供了契机。而由纳米材料所构成的微纳结构涉及色散、多尺度问题的电磁仿真，需要发展与之相适应的新型电磁仿真技术。项目基于辛时域离散伽略金算法研究典型微纳结构的电磁计算问题，具体研究内容如下：(1)显式、隐式辛时域离散伽略金算法的构建及其稳定度与数值色散特性研究；(2) 辛时域离散伽略金算法相关技术处理，主要涉及到各类激励波源的引入、边界条件的构造(连接边界条件、吸收边界条件、周期边界条件)及相关后处理技术(散射参数的提取，消光截面、散射截面、吸收截面的计算)等；(3)色散媒质的辛时域离散伽略金算法的构建与理论研究及其在典型微纳结构电磁仿真中的应用。我们的研究可为新型纳米结构器件的设计提供理论依据与技术支持。

中文关键词： 电磁计算；有限元法；辛几何法

英文摘要： Currently, a hot research issues is the application of nanomaterials in field of metamaterials, nanoantenna, and optic devices containing graphene and so on. The development of nanomaterials offers new chances to make breakthroughs in the filed of solid-state physics, materials science, optics, and applied electromagnetics. New types of electromagnetic simulation method are needed for the micro- and nano-structures which contains dispersive and multiscal nanomaterials. Based on symplectic discontinuous Galerkin time domain method, the project mainly studies on the electromagnetic problem of typical micro- and nano-structures. The key research contents are as follows: (1)The constructions of the explicit and implicit symplectic discontinuous Galerkin time domain methods, and the research on its stability and numerical dispersion. (2)Research on some techniques of symplectic discontinuous Galerkin time domain method, which involves the introduction of excitation sources, implementation of boundary condition (connection boundary conditions, absorbing boundary condition, periodic boundary conditions), post-processing techniques (S-parameters extraction, the calculation of extinction, scattering, and absorption cross-section) and so on. (3)The theory study on the construction of symplectic discontinuous Galerkin time domain method for dispersive materials, and the electromagnetic simulation of typical micro- and nano-structures. Our research provides theory basis and technical support for the design of new nanodevices.

英文关键词： CEM;FEM;Symplectic Scheme